US10397459B2 - Autonomous intelligent vehicle - Google Patents
Autonomous intelligent vehicle Download PDFInfo
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- US10397459B2 US10397459B2 US15/885,913 US201815885913A US10397459B2 US 10397459 B2 US10397459 B2 US 10397459B2 US 201815885913 A US201815885913 A US 201815885913A US 10397459 B2 US10397459 B2 US 10397459B2
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- 238000003384 imaging method Methods 0.000 claims description 6
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- 229910044991 metal oxide Inorganic materials 0.000 claims description 3
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- 238000013473 artificial intelligence Methods 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
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Definitions
- the present disclosure relates to autonomous driving technology, especially, relates to an autonomous intelligent vehicle.
- ADAS advanced driver assistance system
- the image data in front of the intelligent vehicle is obtained by the light detection and ranging (LiDAR) system.
- LiDAR light detection and ranging
- the LiDAR system forms an image of an object through the reflected laser
- the LiDAR system requires a plurality of laser light sources, that cause a larger volume, a grater power and higher cost.
- FIG. 1 is a side schematic diagram of one embodiment of an autonomous intelligent vehicle.
- FIG. 2 is a top schematic diagram of the autonomous intelligent vehicle of FIG. 1 .
- FIG. 3 is a schematic diagram of one embodiment of eye lamps of the autonomous intelligent vehicle of FIG. 1 .
- FIG. 4 is a schematic diagram of another embodiment of eye lamps of the autonomous intelligent vehicle of FIG. 1 .
- FIG. 5 is a schematic diagram of one embodiment of a light emitting device of the autonomous intelligent vehicle of FIG. 1 .
- FIG. 6 is a schematic diagram of one embodiment of an image acquiring device of the autonomous intelligent vehicle of FIG. 1 .
- FIG. 7 shows a connection relationship of the one embodiment between two eye lamps and the advanced driver assistance system.
- FIG. 8 is a side schematic diagram of the autonomous intelligent vehicle of FIG. 1 driving along a horizontal road.
- FIG. 9 is a side schematic diagram of the autonomous intelligent vehicle of FIG. 1 driving up the ramp.
- FIG. 10 is a side schematic diagram of the autonomous intelligent vehicle of FIG. 1 driving down the ramp.
- FIG. 11 is a top schematic diagram of the autonomous intelligent vehicle of FIG. 1 driving along a straightaway.
- FIG. 12 is a top schematic diagram of the autonomous intelligent vehicle of FIG. 1 driving along a curve.
- Coupled is defined as connected, whether directly or indirectly through intervening components, and is not necessarily limited to physical connections.
- the connection can be such that the objects are permanently connected or releasably connected.
- outer refers to a region that is beyond the outermost confines of a physical object.
- inside indicates that at least a portion of a region is partially contained within a boundary formed by the object.
- substantially is defined to essentially conforming to the particular dimension, shape or other word that substantially modifies, such that the component need not be exact. For example, substantially cylindrical means that the object resembles a cylinder, but can have one or more deviations from a true cylinder.
- module refers to logic embodied in hardware or firmware, or to a collection of software instructions, written in a programming language, such as, for example, Java, C, or assembly.
- One or more software instructions in the modules may be embedded in firmware, such as an EPROM.
- modules may comprise connected logic units, such as gates and flip-flops, and may comprise programmable units, such as programmable gate arrays or processors.
- the modules described herein may be implemented as either software and/or hardware modules and may be stored in any type of computer-readable medium or other computer storage device.
- an autonomous intelligent vehicle 1 of one embodiment includes a vehicle body 10 , an advanced driver assistance system 19 located in vehicle body 10 , and two eye lamps 11 located in the front of the vehicle body 10 and spaced apart from each other.
- the location of the two eye lamps 11 are the same as the location of the two eye lamps of the traditional vehicle.
- the two eye lamps 11 are respectively connected to and controlled by the advanced driver assistance system 19 .
- one of the two eye lamps 11 is located on the left front, and the other one is located on the right front.
- the eye lamp 11 includes a light emitting device 12 and an image acquiring device 14 spaced apart from the light emitting device 12 .
- the light emitting device 12 emits light to light the object in front of the vehicle body 10 .
- the image acquiring device 14 acquires and processes the image of the object, and sends the processed result to the advanced driver assistance system 19 .
- the light emitting device 12 and the image acquiring device 14 are located in a lamp shade.
- the location of the light emitting device 12 and the image acquiring device 14 is not limited and can be designed as needed. Referring to FIG. 3 , the light emitting device 12 can be located above or under the image acquiring device 14 . Referring to FIG. 4 , the light emitting device 12 can be located on left or right of the image acquiring device 14 . In one embodiment, the light emitting device 12 and the image acquiring device 14 are located at the same level, two light emitting devices 12 are located inside and two image acquiring devices 14 are located outside.
- the light emitting device 12 includes a heat sink 120 , a light emitting diode 121 , and a reflective concave mirror 123 .
- the light emitting diode 121 is located on a surface of the heat sink 120 and at the bottom of the reflective concave mirror 123 .
- the reflective concave mirror 123 defines a through hole at the bottom.
- the heat sink 120 is located on the outside of the reflective concave mirror 123 and covers the through hole.
- the light emitting diode 121 is in direct contact with the heat sink 120 by passing through the through hole of the reflective concave mirror 123 .
- the reflective concave mirror 123 is fixed on the heat sink 120 so that they can be moved or rotated together.
- the light emitting device 12 can also includes a controller 122 .
- the controller 122 is connected to the heat sink 120 and the light emitting diode 121 .
- the controller 122 controls the work of the light emitting diode 121 and adjusts the emitting light angle of the light emitting diode 121 .
- the lighting angle of the two eye lamps 11 is variable.
- the light emitting diode 121 can be a laser diode or an ordinary light emitting diode.
- the light emitting diode 121 can emit laser or ordinary light.
- the light emitted from the light emitting device 12 can be infrared light, visible light, or light with other wavelengths, such as the light with a central wavelength of 850 nanometers, 870 nanometers, 890 nanometers, 905 nanometers, or 940 nanometers.
- the light emitting device 12 can includes a plurality of light emitting units for emitting light with different wavelengths.
- a visible light can be emitted in day, and an infrared light can be emitted in night.
- both ordinary light for lighting and acquiring image and later for detecting distance can be simultaneously emitted.
- the light emitting device 12 can include a large power laser diode for high beam and a conventional laser diode or an ordinary light emitting diode for low beam.
- the image acquiring device 14 includes an optical sensor 141 and an image processor 142 connected to the optical sensor 141 .
- the optical sensor 141 can be a charge-coupled device (CCD) camera, infrared complementary metal oxide semiconductor (CMOS) laser displacement sensor, color CMOS laser displacement sensor, or any combination thereof.
- the optical sensor 141 includes two infrared CMOS laser displacement sensors and a color CMOS laser displacement sensor.
- the optical sensor 141 acquires image.
- the image processor 142 identifies and analysis the image, and send the result to the advanced driver assistance system 19 .
- the image processor 142 is a micro computer loaded with image processing software.
- the image acquiring device 14 includes an adjusting device 140 .
- the optical sensor 141 is fixed on the adjusting device 140 .
- the visual angle of the optical sensor 141 can be changed by the adjusting device 140 . Thus, larger view can be obtained.
- the two eye lamps 11 respectively includes independent image processors 142 , independently acquires and process images, and independently sends the result to the advanced driver assistance system 19 .
- the two eye lamps 11 shares the same one image processor 142 , independently acquires images, and processes the images by the stereo system of the common image processor 142 , and sends the result to the advanced driver assistance system 19 .
- the autonomous intelligent vehicle 1 directly acquires image by the two eye lamps 11 , that is different from the LiDAR system which image through the time of the reflected laser, the light emitting device 12 can use small-sized laser diode, that cause low cost. Furthermore, the beam angle of the laser diode is adjustable and the visual angle of the two eye lamps 11 is increased.
- the autonomous intelligent vehicle 1 includes a left eye lamp 11 a and a right eye lamp 11 b .
- the left eye lamp 11 a includes a first light emitting device 12 a and a first image acquiring device 14 a .
- the first light emitting device 12 a includes a first heat sink 120 a , a first light emitting diode 121 a , a first controller 122 a , and a first reflective concave mirror 123 a .
- the first image acquiring device 14 a includes a first adjusting device 140 a , a first optical sensor 141 a , and a first image processor 142 a .
- the right eye lamp 11 b includes a second light emitting device 12 b and a second image acquiring device 14 b .
- the second light emitting device 12 b includes a second heat sink 120 b , a second light emitting diode 121 b , a second controller 122 a , and a second reflective concave mirror 123 b .
- the second image acquiring device 14 b includes a second adjusting device 140 b , a second optical sensor 141 b , and a second image processor 142 b.
- the advanced driver assistance system 19 is respectively connected to the first controller 122 a , the first adjusting device 140 a , the first image processor 142 a , the second controller 122 b , the second adjusting device 140 b , and the second image processor 142 b by wire or wireless.
- the advanced driver assistance system 19 receives and processes the image information from the first image processor 142 a and the second image processor 142 b to obtain an analysis result, and sends commands to the first controller 122 a , the first adjusting device 140 a , the second controller 122 b , and the second adjusting device 140 b according to the analysis result.
- the advanced driver assistance system 19 can includes a judging module 190 and a controlling module 191 connected to the judging module 190 .
- the judging module 190 judges whether there is a ramp or a curve in front of the vehicle body 10 according to the image information from the first image processor 142 a and the second image processor 142 b .
- the controlling module 191 sends different commands to the first controller 122 a , the first adjusting device 140 a , the second controller 122 b and the second adjusting device 140 b according to the judgement of the judging module 190 .
- the controlling module 191 makes at least one of the first light emitting diode 121 a , the first optical sensor 141 a , the second light emitting diode 121 b and the second optical sensor 141 b turn up, turn down, or swing up and down so that the lighting and imaging scope of the two eye lamps 11 can be increased.
- the original lighting angle or visual angle of the eye lamp 11 along the vertical direction is defined as a
- the original distance between the nearest lighting or visual point on the road and the front of the vehicle body 10 of the eye lamp 11 along the horizontal direction is defined as L 1 .
- the command sent from the controlling module 191 is that the first light emitting diode 121 a , the first optical sensor 141 a , the second light emitting diode 121 b and the second optical sensor 141 b turn up gradually as the decrease of the distance D 1 between the inflection point and the front of the autonomous intelligent vehicle 1 .
- the command sent from the controlling module 191 is that the first light emitting diode 121 a , the first optical sensor 141 a , the second light emitting diode 121 b and the second optical sensor 141 b turn down gradually as the decrease of the distance D 1 .
- the inflection point can be the bottom or top of the ramp, or a place where the declivity is changed.
- the command sent from the controlling module 191 is that all the first light emitting diode 121 a , the first optical sensor 141 a , the second light emitting diode 121 b and the second optical sensor 141 b turn up gradually as the decrease of the distance D 1 ; and when the judgement of the judging module 190 is that D 1 ⁇ L 1 and the road is curved away from the autonomous intelligent vehicle 1 , the command sent from the controlling module 191 is that all the first light emitting diode 121 a , the first optical sensor 141 a , the second light emitting diode 121 b and the second optical sensor 141 b turn down gradually as the decrease of the distance D 1 .
- the command sent from the controlling module 191 is that all the first light emitting diode 121 a , the first optical sensor 141 a , the second light emitting diode 121 b and the second optical sensor 141 b turn back to original state.
- the controlling module 191 makes at least one of the first light emitting diode 121 a , the first optical sensor 141 a , the second light emitting diode 121 b and the second optical sensor 141 b turn left, turn right, or swing left and right so that the lighting and imaging scope of the two eye lamps 11 on the road can be increased.
- the horizontal visual angle of the first optical sensor 141 a and the horizontal visual angle of the second optical sensor 141 b is the same and defined as ⁇ 1
- the common horizontal visual angle of the first optical sensor 141 a and the second optical sensor 141 b is defined as ⁇ 2 .
- the distance between the nearest visual point on the side of the road and the first image acquiring device 14 a along the road extending direction, when the autonomous intelligent vehicle drives in the middle of the road, is defined as L 2 .
- the command sent from the controlling module 191 is that the first optical sensor 141 a turn left gradually as the decrease of the distance D 2 between the inflection point and the front of the autonomous intelligent vehicle 1 .
- the horizontal visual angle ⁇ 1 of the first optical sensor 141 a and the horizontal visual angle ⁇ 1 of the second optical sensor 141 b is unchanged, the common horizontal visual angle ⁇ 2 of the first optical sensor 141 a and the second optical sensor 141 b is increased.
- the command sent from the controlling module 191 is that the second optical sensor 141 b turn right gradually as the decrease of the distance D 2 between the inflection point and the front of the autonomous intelligent vehicle 1 .
- the command sent from the controlling module 191 is that the first optical sensor 141 a turn left gradually as the decrease of the distance D 2 ;
- the command sent from the controlling module 191 is that the second optical sensor 141 b turn right gradually as the decrease of the distance D 2 .
- the first optical sensor 141 a when the D 2 ⁇ L 2 , if the first optical sensor 141 a does not turn left, a blind area 20 is formed and cannot be observed by the first optical sensor 141 a near the curve.
- the blind area 20 can be eliminated by turning the first optical sensor 141 a left.
- the judgement of the judging module 190 is that the vehicle body 10 has passed by the curve, the first optical sensor 141 a or the second optical sensor 141 b turns back to original state.
- the control method of the first optical sensor 141 a and the second optical sensor 141 b can also be applied to control the first light emitting diode 121 a and the second light emitting diode 121 b .
- the lighting scope of the eye lamps 11 of the autonomous intelligent vehicle 1 can be increased.
- the two eye lamps 11 of the autonomous intelligent vehicle 1 can acquires images of the object in front of the vehicle body 10 at any time and observe the cars, motorcycles, bicycles, or pedestrians in static state or dynamic state.
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Abstract
Description
Claims (20)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US15/885,913 US10397459B2 (en) | 2017-10-18 | 2018-02-01 | Autonomous intelligent vehicle |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US201762573773P | 2017-10-18 | 2017-10-18 | |
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CN109677326B (en) | 2021-10-08 |
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TW201917041A (en) | 2019-05-01 |
US20190116302A1 (en) | 2019-04-18 |
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